Program Book 2023

2 CONTENT PREFACE......................................................................................................................3 WELCOMING SPEECH BY DEAN............................................................................4 FOREWORD BY HEAD OF DEPARTMENT.............................................................5 FOREWORD BY COORDINATOR..............................................................................6 SCHEDULE...................................................................................................................7 LIST OF FINAL YEAR PROJECTS ...........................................................................9 ABSTRACT..................................................................................................................14 COMMITTEE MEMBERS ..........................................................................................32

3 PREFACE Students’ final year project with industry is a collaboration between supervisors in the Department of Software Engineering and Information Systems, CSIT with supervisors from industry. This collaboration has been held since Semester 1 2018/2019. This collaboration has provided exposure to final year students in solving industry problems related to the field of Software Engineering and Information Systems. The industry has provided support either in financial or in-kind form such as technical advice and referrals. In Semester 2 2021/2022 and Semester 1 2022/2023, there are 26 final year students involved with industry, 15 academic supervisors and 10 industry supervisors in 17 different projects with 10 companies.

4 WELCOMING SPEECH BY DEAN Assalamu’alaikum warahmatullahiwabarakatuh and Greetings. I am pleased to welcome you to the Presentation of the Final Year Project Industry Collaboration for Semester 2 2021/2022 and Semester 1 2022/2023 organized by the Department of Software Engineering and Information System, Faculty of Computer Science and Information Technology, Universiti Putra Malaysia (UPM). The Final Year Project Industry Collaboration is a program that allows students to apply their knowledge and skills to real industry problems identified by industry partners. Such projects create valuable experiences for students who emphasize the areas of Software Engineering (SE) and Information System (IS) applications that can benefit the practice community and society. Besides, it is hoped that this program can provide many opportunities for students, academics, and industry to collaborate and share from each other. Organizing the Presentation of the Final Year Project Industry Collaboration certainly requires high teamwork among the organizing committee members. I thank them for their loyalty and diligence in ensuring that the various aspects of the program are fully integrated. I would also like to thank the industry supervisors from HILTI Asia Sdn. Bhd., PKT Sparke Autopart (M) Sdn. Bhd., hive Digital Education, FTRSB Fast Trade Resources Sdn. Bhd., AmBank Malaysia, OrangeBeam Sdn. Bhd., HFEM Society Malaysia & Faculty of Medicine and Health Sciences, Prestige Atlantic Asia Sdn. Bhd., Hospital Pengajar UPM, Agensi Anti Dadah Kebangsaan, SEIS academic supervisors, and FYP students for their high commitment and hard work in completing the project according to the criteria set by both parties, namely industry and academics. This collaboration is very meaningful and invaluable to ensure the success of this program. I really appreciate all your support and participation in this program. Finally, I hope that this program can be helpful and satisfactory in terms of the expectations you have and I hope to see you again in the next Presentation of the Final Year Project Industry Collaboration series. Thank you. “WITH KNOWLEDGE WE SERVE” Assoc. Prof. Dr. Razali bin Yaakob Dean

5 FOREWORD BY HEAD OF DEPARTMENT In the Name of Allah, the Most Beneficent, the Most Merciful. All the praises and thanks be to Allah. Peace and Blessings of Allah be upon our Prophet Muhammad (saw), his family and his companions. Assalamualaikum warahmatullahi wabarakatuh dan Salam Sejahtera Dear distinguished colleagues, Alhamdulillah, on behalf of the department, I am honoured and delighted to welcome all academicians, panel of industries and students to the Final Year Project with Industry Collaborator Showcase for Semester 1 2022/2023. This FYP showcase programme is organized by the Department of Software Engineering and Information System (SEIS), FCSIT, UPM. Thank you to all for being part of the FYP showcase programme. The aim of the Final Year Project FCSIT, UPM and Industry is to carry out final year projects that can solve problems associated with the industry. The collaboration between the SEIS department and several industries would provide the opportunity for the FYP students to develop and demonstrate their abilities performing tasks individually in managing real industry problems. The collaboration effort also supports the department in managing the identification of the capabilities and skills that students need to develop as to prepare them to become a competent software engineer. I would like to thank our industry supervisors from HILTI Asia Sdn. Bhd., PKT Sparke Autopart (M) Sdn. Bhd., hive Digital Education, FTRSB Fast Trade Resources Sdn. Bhd., AmBank Malaysia, OrangeBeam Sdn. Bhd., HFEM Society Malaysia & Faculty of Medicine and Health Sciences, Prestige Atlantic Asia Sdn. Bhd., Hospital Pengajar UPM, Agensi Anti Dadah Kebangsaan, SEIS academic supervisors, and FYP students for their collaboration effort in the Final Year Project activities. Alhamdulillah, I would like to thank the FYP organizing committee, academic supervisors, industry supervisors and FYP students, who put their commitment to make the Final Year Project with Industry Collaborator Showcase a success. Lastly, May Allah swt bless all of us for the efforts in the Final Year Project with Industry Collaborator Showcase for Semester 1 2022/2023. “With Knowledge We Serve” Associate Professor Dr. Norhayati Mohd Ali Head Department of Software Engineering & Information System

6 FOREWORD BY COORDINATOR Dear industry collaborators, presenters, colleagues, and guests. A warm welcome to the Department of Software Engineering and Information Systems (SEIS), Faculty of Computer Science and Information Systems, University Putra Malaysia (UPM). It is our honor to host the 4th Final Year Project (FYP) Showcase once again with industry partners. This semester, we have added some new industries while maintaining relationships with existing industry partners. We hope that the department in particular and the faculty in general are on the right track to educate our students and make them marketable to the industry. As FYP coordinator, I would like to thank all the industry partners for their tremendous support in the form of scholarships, expertise and advice, and for the time and effort they have put into training our students so that they will soon be prepared for the real challenges of the world. I would also like to thank the members of the FYP Showcase Committee, the SEIS, Head Of Department, and colleagues in the department for their great commitment and support, without which the 4th FYP Showcase would not have been possible. Finally, I hope that all presenters will have a great time! I congratulate you on your perseverance and determination and wish you all the best for your future endeavour. The Project Manager/The FYP Co-ordinator Department of Software Engineering & Information System Faculty of Computer Science & Information System, University Putra Malaysia (UPM)

7 SCHEDULE MORNING SESSION 0900 Briefing Welcoming Speech 0905 Opening Speech 0915 Presentation 1 – Improving the E-Commerce User Experience in the Construction Industry using Augmented Reality and Gamification (H+ Mobile Application) 0925 Industry Reflections – HILTI 0935 Presentation 2 – CodiBee:Game-Based Mobile App for Learning Coding for Dyslexia Children 0945 Industry Reflections - Hive Digital Education 0955 Presentation 3 – Handy Mobile App for Ergonomic Risk Assessment Tool 1005 Industry Reflections - HFEM Society Malaysia & Faculty of Medicine and Health Sciences 1015 Presentation 4 – FTRSB:Warehouse System 1025 Industry Reflections – Fast Trade Resources Sdn Bhd (FTRSB) 1035 Presentation 5 – TELCO’s Personliased Recommendation using Machine Learning Technique to Predict Crypto Market 1045 Presentation 6 – Using Machine Learning to Predict Crypto Market Data 1055 Industry Reflections - AmBank Malaysia 1105 Presentation 7 – Truck Inspection & Tracking App:TruckInspect and Truck Management System Web App:Go-Lorry 1115 Presentation 8 – Auto Yard Tracking Operation System 1125 Industry Reflections – PKT SPARKE AUTOPART (M) SDN. BHD 1135 Presentation 9 – IPad App for Construction Project Data Collection and Processing 1145 Presentation 10 – Progress Monitoring for Construction Project using AI 1155 Industry Reflections – OrangeBeam Sdn Bhd 1205 Photography session

8 SCHEDULE AFTERNOON SESSION 1430 Presentation 11 – CPS Camel and Unmanned Terrestrial Mover 1440 Presentation 12 – Real-time IoT-based Printer Monitoring System: Temperature and Humidity Measurements Module, and Realtime IoT-based Printer Monitoring System: Proximity Sensor Measurement Module 1450 Industry Reflections - Prestige Atlantic Asia Sdn. Bhd 1500 Presentation 13 – ICT Development Request System: A Module of e-ICT system for HPUPM 1510 Presentation 14 – UPM Hospital IP Management System 1520 Presentation 15 – E-ICT:Management and Monitoring Complaint 1530 Presentation 16 – Computer Maintenance System: A Module for e-ICT System for Hospital Pengajar UPM 1540 Industry Reflections – Hospital Pengajar UPM 1550 Presentation 17 – Information Repository and Retrieval for AADK 1600 Industry Reflections - Agensi AntiDadah Kebangsaan (AADK) 1620 Photography session Closing

9 LIST OF FINAL YEAR PROJECTS INDUSTRY : Hilti Asia Sdn. Bhd. SUPERVISOR: Mr. Jeff Fan He Project Student Supervisor Improving the ECommerce User Experience in the Construction Industry using Augmented Reality and Gamification (H+ Mobile Application) Hoh Jia Da (200480) Marcus Edward (200461) Dr. Azrina Kamaruddin INDUSTRY : hive Digital Education SUPERVISOR: Dr. Novia Admodisastro & Dr. Azrina Kamaruddin Project Student Supervisor CodiBee:Game-Based Mobile App for Learning Coding for Dyslexia Children Nur Erna Alia Azman (203522) Hanisah Nazaruddin (204236) Assoc. Prof. Ts. Dr. Novia Admodisastro Dr. Azrina Kamaruddin

10 INDUSTRY : FTRSB Fast Trade Resources Sdn Bhd SUPERVISOR: Ms. Armeira Atilla binti Muhd Arif Project Student Supervisor FTRSB: Warehouse System Muhammad Ammar Zaqwan Mohd Azli (202808) Ts. Dr. Rozi Nor Haizan FTRSB: Sales and Marketing System Safraa Khairunisa Rahim (202375) Assoc. Prof. Ts. Dr. Yusmadi Yah Jusoh FTRSB: Financial Management System Nor Syafiqa Abd Rahman (202422) Dr. Salfarina Abdullah INDUSTRY : AmBank Malaysia SUPERVISOR: Dr. Chew Yew Choong Project Student Supervisor TELCO’s Personliased Recommendation using Machine Learning Technique to Predict Crypto Market Muhammad Lukman Aqil Mohamad Laile (203524) Assoc. Prof. Dr. Noraini Che Pa Using Machine Learning to Predict Crypto Market Data Muhammad Qayim Norizan (200919) Assoc. Prof. Dr. Masrah Azrifah Azmi Murah

11 INDUSTRY : PKT SPARKE AUTOPART (M) SDN. BHD SUPERVISOR: Mr Choong Yee Hoong & Mr. Darren Yap Project Student Supervisor Truck Inspection & Tracking App:TruckInspect Muhammad Zikri Mohd Shafie (204237) Assoc. Prof. Ts. Dr Koh Tieng Wei Truck Management System Web App:GoLorry Sarah Mohd Rosli (202376) Ts. Dr. Khaironi Yatim Sharif Auto Yard Tracking Operation System Mohamad Bimastirandra Ridho (201566) Nurul Aina Ariffin (204309) Ts. Dr. Mohd. Hafeez Osman INDUSTRY : OrangeBeam Sdn. Bhd. SUPERVISOR: Mr. Michael Lim Project Student Supervisor IPad App for Construction Project Data Collection and Processing Azri Dzulqarnain Azlan (202374) Ts. Dr. Ng Keng Yap Progress Monitoring for Construction Project using AI Kavi Varmann A/L Peragas (202183)

12 INDUSTRY : HFEM Society Malaysia & Faculty of Medicine and Health Sciences SUPERVISOR: Prof Dr Shamsul Bahri Haji Md Tamrin Project Student Supervisor Handy Mobile App for Ergonomic Risk Assessment Tool Harvin A/L Rajasekaran (203840) Assoc. Prof. Ts. Dr. Web Rodziah Atan -based Ergonomic Risk Assessment Tool Afifah Sabirah Hasani (200655) INDUSTRY : Prestige Atlantic Asia Sdn. Bhd SUPERVISOR: Jeff Lye Project Student Supervisor CPS Camel: Unmanned Terrestrial Mover Sia Wen Quan (203523) Muhammad Muqriez Adam Shah Nazlan Shah(204467) Ts. Dr. Mohd. Hafeez Osman Real-time IoT-based Printer Monitoring System Sajjad Ahmed Jawad (201476) Habibullah Mohammad Bashir (201446) Ts. Dr. Khaironi Yatim Sharif

13 INDUSTRY : Hospital Pengajar UPM SUPERVISOR: Mr. Hafiz Abd Jalil Project Student Supervisor ICT Development Request System: A Module of eICT system for HPUPM Muhammad Nazmi Ariff Khairon Nizam (202372) Assoc. Prof. Dr. Hazura Zulzalil UPM Hospital IP Management System Elenchelian A/L Selvan(204238) E-ICT:Management and Monitoring Complaint Muhammad Afiq Amsyar Md Sukor(203843) Assoc. Prof. Dr. Noraini Che Pa Computer Maintenance System: A Module for eICT System for Hospital Pengajar UPM Muhammad Aiman Hakim Azahari (200903) Ts. Dr. Sufri Muhammad INDUSTRY : Agensi Anti Dadah Kebangsaan SUPERVISOR: Ms. Hasnita binti Hashim Project Student Supervisor Information Repository and Retrieval for AADK Muhammad Akmal Hazim Mohd Zaki (201075) Dr. Jamilah Din

14 PROJECTS’ ABSTRACT

15 IMPROVING THE E-COMMERCE USER EXPERIENCE IN THE CONSTRUCTION INDUSTRY USING AUGMENTED REALITY AND GAMIFICATION (H+ MOBILE APPLICATION) Marcus Edward, Dr Azrina Binti Kamaruddin & Jeff Fan He Hoh Jia Da, Prof Madya Ts Dr Novia Indriaty Admodisastro & Jeff Fan He Jalan Universiti 1, 43400, Serdang, Selangor. Level 6, Brunsfield Oasis Tower 3, No.2, Jalan PJU 1A/7A, Oasis Square, Oasis Damansara, 47301, Petaling Jaya, Selangor. [email protected] & [email protected] ABSTRACT Companies in the construction industry have been adopting Industry 4.0 technology at an increasing rate. This is because there are limitations to the conventional e-commerce website in terms of the user experience due to the complexity and depth of understanding needed to purchase the right construction tools. The problems that users face include the lack of interactivity, product visualization, and incentives which lead to a poor user experience. The objective of this project is to develop an immersive mobile application that revolutionizes the user experience with augmented reality technology and gamification. The H+ application allows users to explore products through augmented reality (AR) while gamification enables users to discover the tools that best suit them and complete missions to win rewards. The project was developed using the Scrum methodology. The H+ application successfully improved the e-commerce user experience, which was proven through the unit testing, SUS and UEQ evaluation results. Keywords: Construction, Gamification, Augmented Reality, Mobile Application, User Experience. Demo Video YouTube Link: https://youtu.be/oRpJGEBJWAQ QR code image for the YouTube link:

16 CODIBEE: GAME-BASED LEARNING FOR CHILDREN WITH DYSLEXIA TO LEARN PROGRAMMING Hanisah Binti Nazaruddin & Nur Erna Alia Binti Azman, Dr. Azrina Binti Kamaruddin & Prof. Madya Dr. Novia Indriaty Admodisastro Fakulti Sains Komputer Dan Teknologi Maklumat, Universiti Putra Malaysia, 43400 Seri Kembangan, Selangor [email protected] & [email protected] ABSTRACT In recent years, coding and computer literacy have become recognized as important parts of childhood education for many young learners. Empirical studies show coding learning teaches children about coping with distress through problem-solving, creativity, and computational thinking. In this project, we developed Codibee, a game-based mobile app for children aged 6 - 12 years old to learn programming in a fun and interactive way. Codibee is designed based on dyslexia-friendly user interface design guidelines to ensure children with special needs like dyslexia are not left behind in learning programming. Two important concepts of programming i.e., sequencing and looping are introduced to the children while they are playing the game . The app has been evaluated for its usability and user satisfaction with a number of children both in the mainstream and with special needs. The results show positive outcomes and received good feedback from the teachers. Keywords: Computer programming, dyslexia, game-based application, multisensory technique, Visual Programming Language Demo Video YouTube Link: https://youtu.be/1mVGDRM3VhY QR code image for the YouTube link:

17 FAST TRADE RESOURCES SDN BHD: WAREHOUSE, SALES & MARKETING, AND FINANCIAL MANAGEMENT SYSTEM Muhammad Ammar Zaqwan Mohd Azli, Nor Syafiqa Abd Rahman & Safraa Khairunnisa Rahim, Prof. Madya Ts. Dr. Yusmadi Yah Jusoff, Ts. Dr. Rozi Nor Haizan Nor & Dr. Salfarina Abdullah Faculty of Computer Science and Information Technology, Universiti Putra Malaysia, 43400 Seri Kembangan, Selangor [email protected] & [email protected] & [email protected] ABSTRACT This project aims to tackle the business management issues of Fast Trade Resources Sdn Bhd (FTRSB) that includes data management problems and difficulties in interdepartmental communication. The proposed solution for these problems is to develop an integrated business management system in the form of a mobile application which incorporates the functions of all three major functional areas in FTRSB which are Warehouse, Finance, and Sales and Marketing Departments. The mobile application is developed in an agile environment with Flutter as the development framework and Firebase for the database. The system requirements were gathered through interviews with the stakeholders, business document analysis, and prototyping. The primary features of the application are barcode scanning for inventory tracking, product inspection, revenue and expenses tracking, payment collection reminder, dashboard for sales performance analysis, and data migration through comma-separated values (CSV) files. The application has been tested with several software testing techniques including integration, functional, and usability testing. The overall result for the testing is positive with all test cases passed successfully. Keywords: Warehouse; Sales and marketing; Financial; Mobile application; Integrated business management system; sales performance analysis

18 Muhammad Lukman Aqil bin Mohamed Laile, Prof. Madya Dr. Noraini binti Che Pa & Yew Choong Chew. Dept. of Software Engineering and Information Systems Faculty of Computer Science and Information Technology Universiti Putra Malaysia 43400 UPM Serdang Selangor Darul Ehsan. Level 08-10-15B, Berjaya Times Square, 1, Jln Imbi, Imbi, 55100 Kuala Lumpur, Federal Territory of Kuala Lumpur. [email protected] ABSTRACT Cryptocurrency is one of the digital technologies that has been used widely either for any transaction or investing. The main problems in the cryptocurrency investment are hard to predict the market action and confuse to decide the best cryptocurrency which should be invested on. This project is to help investor which focusing on novice to have a prediction of the cryptocurrency and start investing on it. Machine learning, regression technique and classification technique will be used to generate the prediction and news analysis to help the investor get the cryptocurrency market direction. The project was developed using Agile methodology. The mobile application of cryptocurrency prediction system successfully provided 93% accuracy of open price for the next day and improved the user experience which was shown through unit testing. Keywords: cryptocurrency, market prediction, machine learning, sentiment analysis, regression technique, classification technique. Demo Video YouTube Link: https://youtu.be/vbxHPCKDzH0 QR code image for the YouTube link:

19 USING MACHINE LEARNING TO PREDICT CRYPTO MARKET DATA: CRYPTOING SYSTEM Muhammad Qayim bin Norizan, Universiti Putra Malaysia Prof. Madya Dr. Masrah Azrifah binti Azmi Murad & Yew Choong Chew Jalan Universiti 1, 43400 Serdang, Selangor Level 08-10-15B, Berjaya Times Square, 1, Jln Imbi, Imbi, 55100 Kuala Lumpur, Federal Territory of Kuala Lumpur Student’s email: [email protected] ABSTRACT Cryptocurrency has become a hot topic among other rising technologies to come. The main problem in this field is unsure of which cryptocurrency to invest in, unsure of the way to invest and bad reputation towards the market. This project is to help investors, mainly the novice investors to start their cryptocurrency investing journey. With the help of machine learning, particularly neural networks, long short-term memory algorithms, prediction data can be achieved to provide a comprehensive recommendation system based on the crypto market performance. Other features such as sentiment analysis, guide and target calculation are also provided via the system. The results of the whole project are overall positive especially in terms of usability of the system. Keywords: Cryptocurrency, Long Short-Term Memory, Machine Learning, market prediction, sentiment analysis. Demo Video YouTube Link: https://www.youtube.com/watch?v=4FMJuQdfytc&ab_channel=QayimNorizan QR code image for the YouTube link: Put student image only in this box. Please use your formal picture. QR code image here

20 GoLorry & TruckInspect: A TRUCK MANAGEMENT SYSTEM Muhammad Zikri Bin Mohd Shafie & Sarah Mohd Rosli, Assoc. Prof. Ts. Dr. Koh Tieng Wei Fakulti Sains Komputer Dan Teknologi Maklumat, Universiti Putra Malaysia, 43400 Seri Kembangan, Selangor [email protected] & [email protected] ABSTRACT GoLorry and TruckInspect is a combination of a web and mobile application designed as a truck management system with the aim of digitizing the systems currently used by a logistic company called PKT Logistics Group Sdn Bhd HQ at Shah Alam, Selangor. The problem statements are the excessive use of paper-based processes, the struggle to overview the data and the needs for data conversion. The objectives of the system are that; the system will replace manual pen and paper inspection forms, the system will be developed as a managed and systematic system with better data visualization and finally, the system will be accompanied by documents that can be automatically generated to other file types. The methodology employed for the systems are Agile and Sprint methodology. We have also performed usability testing with some employees as our testers from the PKT during our site visits as we wanted to get feedback from them. The average score for the System Usability Scale (SUS) is 85% which means the app has excellent feedback from testers. Keywords: Computer programming, Truck Inspection, mobile application, web application, Automation, Python Demo Video YouTube Link: https://youtu.be/80hAZjFZ8NA QR code image for the YouTube :

21 AUTOYARD VEHICLE TRACKING SYSTEM Nurul Aina binti Ariffin, Dr. Khaironi Yatim Sharif & Mr. Darren Yap Muhammad Bimastirandra Ridho, Dr. Mohd Hafeez Bin Osman & Mr. Darren Yap Faculty of Computer Science and Information Technology, University Putra Malaysia, Serdang, 43400 Serdang, Selangor, Malaysia. 1-2, Jalan 5/125d, Desa Petaling, 57100 Kuala Lumpur, Wilayah Persekutuan Kuala Lumpur, Malaysia. [email protected] & [email protected] ABSTRACT This paper presents an automotive distribution, analysis and tracking system called Autoyard, designed and developed for PKT Logistics. It utilizes the retrieval of information from the mobile application in the form of charts and history records for each operation and vehicles. The development team chose Laravel, Flutter and MongoDB as their technologies to aid them in completing the project and succeeded in developing a fully automated, fully tested automotive logistics system that matches the stakeholder's needs. The system's mobile application will be built using the Flutter framework and the system's website will connect to MongoDB, which is the system's database. The mobile application and the server communicate using HTTP, with information being passed to the server using HTTP forms and information being passed back to the app in the form of JSON. The mobile application module has fulfilled the requirements presented to us for the tracking module of the AutoYard system. The web module of the system is expected to help smoothen the process when dealing with the administration and analysis of the data, and the integration of this web module with the mobile module as a complete system will help the users to have the best experience when using the system. To complete this project, the Agile Scrum methodology was used, as the stakeholders of the PKT party prefer to have frequent workable deliveries. The new system consists of a mobile app that operators may use to update vehicles and a website for data analysis and user management. Keywords: Automotive Logistics, QR Code, Vehicle Tracking, Vehicle Identification Number, Flutter, Laravel, MongoDB, Scrum Demo Video Drive Link: https://drive.google.com/file/d/1keE9fyXorVAp-Ipv56COj1tV0SKp5xjK/view QR code image for the Drive link:

22 IPAD APPLICATION FOR CONSTRUCTION PROJECT DATA COLLECTION AND PROCESSING Azri Dzulqarnain bin Azlan , Dr Ng Keng Yap , Mr Michael Lim Dept. of Software Engineering and Information Systems Faculty of Computer Science and Information Technology Universiti Putra Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan Orangebeam , Level 2 & Level 3, Oasis Tower 3, 2, Jalan PJU 1A/7, Oasis Ara Damansara, 47301 Petaling Jaya, Selangor, Malaysia [email protected] ABSTRACT Construction project progress can be very difficult to measure and sometimes inaccurate. The aim of the iPad Application for Construction Project Data Collection and Processing is to introduce an iPad application to be used by management to evaluate progress and prompt the management when the project is not following the set schedule. By extracting imagery data from the 360 videos collected through the 360 Camera , and with the help of the built-in sensors from the iPad , this project’s motive is to deliver an easier way to collect and review data. The methodology to be used is Rapid Application Development (RAD) which allows for rapid prototyping to be carried out with minimal time spent on long planning and design phases. The findings of the project is that the data collection using the 360 camera and sensors are successfully done using the iPad Pro. Keywords: iPad Application, Construction Project Progress , Data Collection , 360 Camera Demo Video YouTube Link: https://youtu.be/eJi0aOZvQME QR code image for the YouTube link:

23 PROGRESS MONITORING FOR CONSTRUCTION PROGRESS USING ARTIFICIAL INTELLIGENCE Kavi Varmman A/L Peragas, Ts. Dr. Ng Keng Yap & Mr. Michael Lim Faculty of Computer Science and Information Technology, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan. Level 2 & Level 3, Oasis Tower 3, 2, Jalan PJU 1A/7, Oasis Ara Damansara, 47301 Petaling Jaya, Selangor [email protected] ABSTRACT Progress monitoring is a crucial matter for project managers in the construction industry to be up to date with their projects. This is to make sure that the projects are being monitored regularly to check whether the projects can be completed within the set deadline. Currently, progress monitoring is being done with the usage of manual documents which are prone to error and can be filled with fake data by some careless staffs. Therefore, there is a requirement for proof-based progress reporting system to be developed together with Artificial Intelligence. Artificial Intelligence will be working with some hardware sensors to capture videos and translate them into data to record project progress. This project is a web application that will allow the project manager to save data and monitor the progress of a project. This will be done by machine learning process that can help the management to not make errors when updating about the construction project progress. The developed system could help the project managers to create projects and add users to the system who can monitor the projects. It can help them to monitor the project progress based on structural progress chart that uniquely represents each project depending on the blocks, zones and floors. Keywords: Progress monitoring, Artificial Intelligence, sensors, structural progress chart Demo Video YouTube Link: https://youtu.be/hUpUH6T86rs QR code image for the YouTube link:

24 ONLINE ERGONOMICS RISK ASSESSMENT TOOL Harvin Raj A/L Rajasekaran, Afifah Sabirah Binti Hasani, Prof Madya Dr Rodziah Binti Atan, Prof Dr Shamsul Bahri Haji Md Tamrin Jalan Universiti 1, 43400, Serdang, Selangor. Persiaran Mardi - Upm, 43400 Serdang, Selangor [email protected], [email protected] ABSTRACT Ergonomics Risk Assessment (ERA) is a tool available in the guideline published by the Department of Occupational Safety and Health of Malaysia (DOSH) to carry out assessments to measure risks in workplaces. The guideline comprises initial and advanced ergonomics risk assessments. Current state of ERA is an offline tool that uses paper and pen techniques to collect data. Ergonomists have to do double tasking of manual collecting data and data entry to calculate the risk measures. The emergence of rapid development in the software sector making a way for these tools to be developed into a mobile application. In conjunction to that, this project aims to develop an ERA tool system based on Guidelines by DOSH 2017. This tool can only be accessed by the ergonomics risk assessor (ergonomist). The methodology used in the development of the Ergonomics Risk Assessment Tool system is the Agile approach. The Agile methodology is based on an iterative and incremental approach. The tool is fragmented into smaller incremental builds. The small builds were iteratively released which represented a sprint. During each sprint rotation, the requirements evolve. The feedback from each release was incorporated into the new sprint rotation. Each release had slight changes to features over the previous release. In conclusion, the development of this mobile application of ERA is expected to assist ergonomists and DOSH in achieving the department's vision to increase the awareness of ergonomics at the workplace. Keywords: Department of Occupational Safety and Health of Malaysia (DOSH), Ergonomics Risk Assessment (ERA), incremental approach, sprint, mobile application Demo Video YouTube Link: https://youtu.be/M9gcai86kZY QR code image for the YouTube link:

25 CPS CAMEL: Unmanned Terrestrial Mover Muhammad Muqriez Adam Shah Bin Nazlan Shah, Mohd Hafeez Osman (Ts. Dr.) & Sia Wen Quan, Prof. Madya Dr. Koh Tieng Wei Fakulti Sains Komputer Dan Teknologi Maklumat, Universiti Putra Malaysia, 43400 Seri Kembangan, Selangor [email protected] [email protected] ____________________________________________________________________________ ABSTRACT The CPS CAMEL:Unmanned Terrestrial Mover project is conceptually categorized as an Automated Guided Vehicle (AGV) which automatically performs fetching and delivering activities. Prestige Atlantic Asia Sdn. Bhd. (PAA) requires a cost effective prototype in developing a suitable AGV intended for transporting printing materials in a printing factory. This thesis covers the physical development encompassing the embedded system and web application in prototyping for a small-scale AGV machine known as the Unmanned Terrestrial Mover:CPS CAMEL. The prototype of this embedded system is defined as a hardware and software system based on a microprocessor that performs mechanical mobility within a broader material-management system. By reading real-time data from the web application, the microcontroller that is embedded on the machine is tasked to execute fetching commands efficiently. The microcontroller chosen for the project is the Raspberry Pi model 4 which is serially connected to an Arduino UNO attached with a CNC Shield V3. This microcontroller handles the logic for maneuvering and loading the pallet from the loading platform. By connecting the embedded system to the web application interface, the microcontroller processes its tasks in precedence which include fetching and delivering printing materials which are loaded on a pallet. The web application is a management system solely focused on recording the transaction of stocks. The project is developed using the RAD and SCRUM methodology. The CPS CAMEL did not successfully implement obstacle detection. The usability testing was conducted with sheer emphasis on functionality and stress testing which scored a total of 75%. Keywords: Warehouse Automation, Embedded System, Web Application, Stock Management QR code image for the YouTube link:

26 REAL-TIME IOT-BASED PRINTER MONITORING SYSTEM Sajjad Ahmed, Dr. Khaironi Yatim Sharif & Mr. Jeff Lye Mohammad Bashir, Dr. Mohd Hafeez Bin Osman & Mr. Jeff Lye Faculty of Computer Science and Information Technology, University Putra Malaysia, Serdang, 43400 Serdang, Selangor, Malaysia. 1-2, Jalan 5/125d, Desa Petaling, 57100 Kuala Lumpur, Wilayah Persekutuan Kuala Lumpur, Malaysia. [email protected] [email protected] ABSTRACT A proposed real-time IoT-based printer monitoring system aims to minimize downtime and failure of printing machines in a package printing company. The system is a responsive dashboard web application that will keep track of the printers' status, such as temperature, humidity, and number of items processed, and send alerts to the staff if any sensor measurements exceed the assigned threshold limits. The staff of the printing company will be the intended users of the system, allowing them to stay updated on the printers' activity and condition in real time. The development process of the system will follow the Scrum methodology, a widely used agile approach that emphasizes short, time-boxed sprints of new features integrated into a baseline product. The approach also prioritizes open communication with customers and their feedback and modifications, rather than relying solely on paperwork and forecasting. The end goal of the system is to help the printing company prevent machine downtime or failure and reduce the costs associated with fixing machines and losing customers. Keywords: Real-time monitoring, IoT, Industry packaging printers, Responsive web application, Sensors, PLC. Demo Video YouTube Link: https://youtu.be/dxlmJgIvHik QR code image for the YouTube link:

27 ICT DEVELOPMENT REQUEST SYSTEM: A MODULE OF E-ICT FOR HPUPM Muhammad Nazmi Ariff Bin Khairon Nizam, Dr. Hazura Zulzalil & En. Hafiz Abd Jalil Dept. of Software Engineering and Information Systems Faculty of Computer Science and Information Technology Universiti Putra Malaysia 43400 UPM Serdang Selangor Darul Ehsan Hospital Pengajar Universiti Putra Malaysia Persiaran Mardi – UPM, 43400 Serdang Selangor Darul Ehsan [email protected] ABSTRACT ICT Development Request System is a system under the ICT department of Hospital Pengajar Universiti Putra Malaysia (HPUPM). The main function of the system is to allow applicants to make requests for ICT development to their head of department; and subsequently to the ICT department, who has the final say on whether the requests are accepted or rejected. Currently, the existing system pose many problems like unproductive processing of paper-based forms, inefficient resource utilisation by the system, and unconduciveness for auditing and archiving. Using technologies such as Seashell and PostgreSQL, and combined with the agile, Rapid Application Development (RAD) methodology; the solutions point out to primarily, digitalisation of the paper-based system and equipping the new digital system with reliable and relevant technologies. The developed system could help to stop the inconveniences from using an archaic paperbased system, and bring the efficiency and benefits of a digitalised system. Keywords: Digitalisation, PostgreSQL, RAD, efficiency, forms Demo Video YouTube Link: https://youtu.be/E8ZU5M1UhnE QR code image for the YouTube link:

28 HOSPITAL PENGAJAR UNIVERSITY PUTRA MALAYSIA (HPUPM) INTERNET PROTOCOL MANAGEMENT SYSTEM ELENCHELIAN A/L SELVAN, DR. HAZURA ZULZALIL & EN. HAFIZ ABD JALIL Dept. of Software Engineering and Information Systems Faculty of Computer Science and Information Technology Universiti Putra Malaysia 43400 UPM Serdang Selangor Darul Ehsan Hospital Pengajar Universiti Putra Malaysia Persiaran Mardi – UPM, 43400 Serdang, Selangor Darul Ehsan [email protected] ABSTRACT This is a web-based application system that enables the user to manage the IP address at Hospital Pengajar University Putra Malaysia (HPUPM). Users do not need to manage the data manually with the use of this web-based system since they simply need to register the IP address in the system and the data will be kept in the database. As a result, if a user wants to check the availability of a port, they can do so using this system. Previously the phone number recorded manually by the administrator on the Excel. It is hard for them to track the available phone number. This web-based application also allows the administrator to track the phone number that assigned in the HPUPM. Administrator also able to trace the available phone number. This will allow the administrator to fully utilize the phone numbers. This technology will reduce human errors. Keywords: Availability,Track,Port Demo Video YouTube Link: https://www.youtube.com/watch?v=3yT_-zyWUtE QR code image for the YouTube link:

29 E-ICT SYSTEM: MANAGEMENT AND MONITORING COMPLAINT Muhammad Afiq Amsyar Bin Md Sukor, Assoc. Prof. Dr. Noraini Binti Che Pa, & Mr. Hafiz Abd Jalil Dept. of Software Engineering and Information Systems, Faculty of Computer and Information Technology, Universiti Putra Malaysia, 43400 UPM Serdang, Selangor Darul Ehsan. Hospital Pengajar Universiti Putra Malaysia, Persiaran Mardi - UPM 43400 Serdang, Selangor Darul Ehsan [email protected] ABSTRACT Hospital Pengajar Universiti Putra Malaysia (HPUPM) is a hospital in Universiti Putra Malaysia that provides medical care and treatment to the community which uses various facilities to provides health and medical care. In this modern day, technology helps a lot to ease human tasks and HPUPM also uses technology in carrying out their services. Currently, paper-based forms are used to make damage complaints and requests. By doing the management manually, it is considered to be inefficient as the large number of papers will make it difficult to search the forms and access the stored data. Hence, the process will be delayed. In this project, the goal is to develop a web application called e-ICT system that aims to manage and monitor requests and complaints. In addition, the system can also store all the data regarding the requests and damage complaints more securely and the data can be accessed quickly. Keywords:Rule-based Model System, Complaint Management System, Request Management System Demo Video YouTube Link: https://youtu.be/QeslwmS2nbE QR code image for the YouTube link: ture.

30 COMPUTER MAINTENANCE SYSTEM: A MODULE FOR E-ICT SYSTEM FOR HOSPITAL PENGAJAR UPM Muhammad Aiman Hakim bin Azahari, Ts. Dr. Sufri Muhammad & Hafiz Abd Jalil Jalan Universiti 1, 43400, Serdang, Selangor. Persiaran Mardi - Upm, 43400 Serdang, Selangor [email protected] ABSTRACT A system known as a Computerized Maintenance System (CMS) helps an HPUPM organization's facility maintenance operation manage maintenance activities by centralizing maintenance data. Equipment, asset, and maintenance services are conducted using CMS software. It enables management to make more informed decisions regarding all maintenance activities while maximizing the utilization and availability of tangible assets such as computers at HPUPM. Problems that HPUPM faces such as record maintenance using paper-based form, maintenance process between technicians, staff, and technician manager is not organized and maintenance records are stored in physical place. This project focused on recording maintenance processes in service-based applications, improving the maintenance operation more organized and digitizing maintenance records by using databases. The software development model used in this project is rapid application development (RAD), which is a framework extended from the agile software development model. The results of the whole project are overall positive especially in terms of usability of the system. Keywords: Web Application, Computer Maintenance, Hospital Pengajar UPM, Management System Demo Video YouTube Link: https://youtu.be/e0iz-0JYycA QR code image for the YouTube link:

31 e-PARLIMEN SYSTEM: KNOWLEDGE REPOSITORY AND MANAGEMENT FOR AADK Muhammad Akmal Hazim Mohd Zaki, Dr. Jamilah Din & Hasnita Hashim Jalan Universiti 1, 43400, Serdang, Selangor. Agensi Antidadah Kebangsaan, Jalan Maktab Perguruan Islam, 43000 Kajang. [email protected] ABSTRACT e-Parlimen is a web-based application that provides knowledge management and repository for Agensi AntiDadah Kebangsaan (AADK). Nowadays, there is no online platform that is used by AADK to collect, record, search and manage the answer collection in the Parliament session and only manual method used to record and manage the answer from the Parliament session. Objectives for this project are to design a repository to store all information regarding Parliament and develop an e-Parlimen system based on tools identified. Methodology used in the project is Rapid Application Development (RAD), a sort of Agile software development technique. e-Parlimen system is a collaboration with AADK to fully use online platforms to collect, record, search and manage the answer to improve existing work processes from manual to electronic record. Keywords: Web Application, Knowledge Repository, Management System, AADK Demo Video YouTube Link: https://youtu.be/BrkLJ_5rSwI QR code image for the YouTube link:

32 COMMITTEE MEMBERS Steering Committee Assoc. Prof. Dr. Razali Yaacob Assoc. Prof. Dr. Azreen Azman Assoc. Prof. Dr. Norhayati Mohd Ali Chair Dr. Azrina Kamaruddin Deputy Chair Assoc. Prof. Dr. Noraini Che Pa Secretaries Dr. Mar Ya Said Assoc. Prof. Ts. Dr. Yusmadi Yah Jusoh Emcee Ts. Dr. Mohd Hafeez Osman Promotion Ts. Dr. Rozi Nor Haizan Nor Ts. Dr. Ng Keng Yap Ms. Fatimah Suria Mohd Shafie Technical Programme Ts. Dr. Khaironi Yatim Sharif Dr. Muhammad Luqman Mahamad Zakaria Registration & Certification Mrs. Ainita Ban Dr. Salfarina Abdullah Programme Book Dr. Pathiah Abdul Samat Ts. Dr. Muhamad Sufri Muhammad